Genetic Information Management System and Method

1. A genetic information management system for building a database of genetic information by processing read data obtained from a genome analyzer and outputting database search results in response to a user's command, the system comprising: a processor; a parsing unit executed by the processor and reading the read data and converting the read data into a table-embedded index having a structure in which a data table is included in an index; a table management unit executed by the processor and dividing the table-embedded index into a master table which contains basic items about the genetic information and a slave table which contains additional items about the genetic information, and managing the master table and the slave table; and a search unit executed by the processor and retrieving data from the master table and/or the slave table and outputting the retrieved data, wherein each of the master table and the slave table comprises primary keys, and the search unit searches the master table and the slave table using a primary key related to the user's command, and wherein the search unit retrieves data corresponding to the primary key from the master table and outputs the retrieved data when the user's command is a ZoomOut command, and retrieves data corresponding to the primary key from the master table and data corresponding to the primary key from the slave table and outputs a combination of the retrieved data corresponding to the primary key from the master table and the retrieved data corresponding to the primary key from the slave table when the user's command is a ZoomIn command.

2. The system of claim 1 , wherein the table-embedded index is an index-organized table (TOT), a clustered index, or an InnoDB.

3. The system of claim 1 , wherein the basic items comprise the ID, chromosome number, start point, type and mod of the genetic information, and the additional items comprise the quality, sequence, and differences of the genetic information.

4. The system of claim 1 , wherein the primary key includes at least a part of American Standard Code for Information Interchange (ASCII) codes.

5. The system of claim 4 , wherein the at least a part of the ASCII codes comprises ASCII codes in a range from 33 to 126.

6. The system of claim 5 , wherein the primary key is represented in 5 bytes generated by combining the ASCII codes in the range from 33 to 126.

7. A genetic information management system building a database of genetic information by processing read data obtained from a genome analyzer and outputting database search results in response to a user's command, the system comprising: a processor; a parsing unit executed by the processor and reading the read data and converting the read data into a table-embedded index having a structure in which a data table is included in an index; a table management unit executed by the processor and dividing the table-embedded index into a master table containing basic items about the genetic information and a slave table containing additional items about the genetic information; and a search unit executed by the processor and searching the table-embedded index using a primary key related to the user's command, wherein the primary key includes at least a part of ASCII codes, wherein each of the master table and the slave table comprises primary keys, and the search unit searches the master table and the slave table using a primary key related to the user's command, and wherein the search unit retrieves data corresponding to the primary key from the master table and outputs the retrieved data when the user's command is a ZoomOut command, and retrieves data corresponding to the primary key from the master table and data corresponding to the primary key from the slave table and outputs a combination of the retrieved data corresponding to the primary key from the master table and the retrieved data corresponding to the primary key from the slave table when the user's command is a ZoomIn command.

8. The system of claim 7 , wherein the at least a part of the ASCII codes comprises ASCII codes in a range from 33 to 126.

9. The system of claim 8 , wherein the primary key is represented in 5 bytes generated by combining the ASCII codes in the range from 33 to 126.

10. A genetic information management system building a database of genetic information by processing read data obtained from a genome analyzer and outputting database search results in response to a user's command, the system comprising: a processor; a parsing unit executed by the processor and reading the read data and converting the read data into a data format in the form of a table-embedded index having a structure in which a data table is included in an index; a table management unit executed by the processor and storing and managing the data format and dividing the data format in the table-embedded index into a master table containing basic items about the genetic information and a slave table containing additional items about the genetic information; and a search unit executed by the processor and retrieving data from the data format on the basis of a primary key and outputting the retrieved data in response to the user's command, wherein the search unit retrieves data corresponding to the primary key from the max master table and outputs the retrieved data when the user's command is a ZoornOut command, and the search unit retrieves data corresponding to the primary key from the master table and data corresponding to the primary key from the slave table and outputs a combination of the retrieved data corresponding to the primary key from the master table and the retrieved data corresponding to the primary key from the slave table when the user's command is a ZoomIn command.

11. A genetic information management method of building a database of genetic information by processing read data obtained from a genome analyzer and outputting database search results in response to a user's command, the method comprising: reading the read data; converting the read data into a table-embedded index having a structure in which a data table is included in an index; generating from the table-embedded index a master table which contains basic items about the genetic information; generating from the table-embedded index a slave table which contains additional items about the genetic information; and retrieving data from the master table and/or the slave table and outputting the retrieved data, wherein the master table and the slave table constitute a table-embedded index, wherein each of the master table and the slave table comprises primary keys, and wherein the method further comprises: searching the master table and the slave table using a primary key related to the user's command; retrieving data corresponding to the primary key from the master table and outputting the retrieved data when the user's command is a ZoomOut command; and retrieving data corresponding to the primary key from the master table and data corresponding to the primary key from the slave table and outputting a combination of the retrieved data corresponding to the primary key from the master table and the retrieved data corresponding to the primary key from the slave table when the user's command is a ZoomIn command.

12. The method of claim 11 , wherein the table-embedded index is an IOT, a clustered index, or an InnoDB.

13. The method of claim 11 , wherein the basic items comprise the ID, chromosome number, start point, type and mod of the genetic information, and the additional items comprise the quality, sequence, and differences of the genetic information.

14. The method of claim 11 , wherein the primary key includes at least a part of ASCII codes.

15. The method of claim 14 , wherein the at least a part of the ASCII codes comprises ASCII codes in a range from 33 to 126.

16. The method of claim 15 , wherein the primary key is represented in 5 bytes generated by combining the ASCII codes in the range from 33 to 126.